Litcius/Paper detail

From Theory to Practice: Leveraging Chemical Principles To Improve the Performance of Peroxydisulfate-Based In Situ Chemical Oxidation of Organic Contaminants

Lenka McGachy, David L. Sedlak

2023Environmental Science & Technology57 citationsDOIOpen Access PDF

Abstract

In situ chemical oxidation (ISCO) using peroxydisulfate has become more popular in the remediation of soils and shallow groundwater contaminated with organic chemicals. Researchers have studied the chemistry of peroxydisulfate and the oxidative species produced upon its decomposition (i.e., sulfate radical and hydroxyl radical) for over five decades, describing reaction kinetics, mechanisms, and product formation in great detail. However, if this information is to be useful to practitioners seeking to optimize the use of peroxydisulfate in the remediation of hazardous waste sites, the relevant conditions of high oxidant concentrations and the presence of minerals and solutes that affect radical chain reactions must be considered. The objectives of this Review are to provide insights into the chemistry of peroxydisulfate-based ISCO that can enable more efficient operation of these systems and to identify research needed to improve understanding of system performance. By gaining a deeper understanding of the underlying chemistry of these complex systems, it may be possible to improve the design and operation of peroxydisulfate-based ISCO remediation systems.

Topics & Concepts

PeroxydisulfateEnvironmental remediationChemistryHazardous wasteDecompositionEnvironmental chemistryHuman decontaminationHydroxyl radicalContaminationWaste managementEnvironmental scienceCatalysisOrganic chemistryRadicalEngineeringBiologyEcologyAdvanced oxidation water treatmentArsenic contamination and mitigationAcute Kidney Injury Research